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We present the results of the largest survey to date for intergalactic metals at redshifts z 5, using near-IR spectra of nine quasi-stellar objects with emission redshifts zem 5.7. We detect three strong C IV doublets at zabs = 5.7–5.8, two low-ionization systems at zabs 5 and numerous Mg II absorbers at zabs = 2.5–2.8. We find, for the first time, a change in the comoving mass density of C IV ions as we look back to redshifts z 5. At a mean 〈z 〉 = 5.76, we deduce C IV = (4.4 ± 2.6) × 10−9 which implies a drop by a factor of ∼3.5 compared to the value at z 4.7, after accounting for the differing sensitivities of different surveys. The observed number of C IV doublets is also lower by a similar factor, compared to expectations for a non-evolving column density distribution of absorbers. These results point to a rapid build-up of intergalactic C IV over a period of only ∼300 Myr; such a build-up could reflect the accumulation of metals associated with the rising levels of star formation activity from z ∼ 9 indicated by galaxy counts, and/or an increasing degree of ionization of the intergalactic medium (IGM), following the overlap of ionization fronts from star-forming regions. If the value of C IV we derive is typical of the IGM at large, it would imply a metallicity ZIGM 10−4 Z. The early-type stars responsible for synthesizing these metals would have emitted only about one Lyman continuum photon per baryon prior to z = 5.8; such a background is insufficient to keep the IGM ionized and we speculate on possible factors which could make up the required shortfall. Key words: intergalactic medium – quasars: absorption lines – cosmology: observations.
Ryan‐Weber et al. (Thu,) studied this question.
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